void run_test()
{
printf("Running test for DROTM with N = %d, incx = %d, incy = %d, flag = %f\n", N, incx, incy, param[0]);
printf("%32s%32s\n","ACML", "FORTRAN");
printf("Trials\n");
printf("%32s%32s%32s\n", "Time (ns)", "Time (ns)", "ACML == FT");
int c = 8, ic, it = 0;
unsigned long long int tot1 = 0, tot2 = 0;
for (ic = 0; ic < c; ic++)
{
unsigned long long int t1, t2;
t1 = acml_time();
t2 = f_time();
printf("%32d", array_cmp());
if (ic >= 2)
{
tot1 += t1;
tot2 += t2;
it ++;
}
printf("\n");
}
printf("Average (Does not include first two trials)\n");
printf("%32llu%32llu\n",tot1/it,tot2/it);
printf("\n");
}
void run_test()
{
printf("Running test for SCNRM2 with N = %d, incx = %d\n", N, incx);
printf("%32s%32s\n","ACML","Fortran");
printf("Trials\n");
printf("%32s%32s%32s\n", "Time (ns)", "Time (ns)", "ACML == FT");
int c = 8, it = 0;
unsigned long long int tot1 = 0, tot2 = 0;
int ic;
for (ic = 0; ic < c; ic++)
{
unsigned long long int t1, t2;
t1 = acml_time();
t2 = f_time();
printf("%32d", scalar_cmp());
if (ic >= 2)
{
tot1 += t1;
tot2 += t2;
++it;
}
printf("\n");
}
printf("Average (Does not include first two trials)\n");
printf("%32llu%32llu\n",tot1/it,tot2/it);
printf("\n");
}
bool TestExtDatetime::test_time() {
// XXX This test fails between 12:00AM and 12:59AM on 10/31/11 - 11/6/11
// and between 11:00PM and 11:59PM on 3/6/11 - 3/12/11, we should fix this.
// This issue appears to have something to do with how strtotime() handles
// daylight savings time.
int nextWeek = f_time() + (7 * 24 * 60 * 60);
VS(f_date("Y-m-d", nextWeek),
f_date("Y-m-d", f_strtotime("+1 week")));
return Count(true);
}
Variant c_DateTime::ti_createfromformat(const String& format,
const String& time,
CObjRef timezone /*= null_object */) {
c_DateTime *datetime = NEWOBJ(c_DateTime);
const auto curr = (format.find("!") != String::npos) ? 0 : f_time() ;
datetime->m_dt = NEWOBJ(DateTime(curr, false));
if(!datetime->m_dt->fromString(time, c_DateTimeZone::unwrap(timezone),
format.data(), false)) {
return false;
}
return datetime;
}
Variant HHVM_STATIC_METHOD(DateTime, createFromFormat,
const String& format,
const String& time,
const Variant& timezone /*= null_variant */) {
const Object& obj_timezone = timezone.isNull()
? null_object
: timezone.toObject();
Object obj{DateTimeData::getClass()};
DateTimeData* data = Native::data<DateTimeData>(obj);
const auto curr = (format.find("!") != String::npos) ? 0 : f_time() ;
data->m_dt = req::make<DateTime>(curr, false);
if (!data->m_dt->fromString(time, DateTimeZoneData::unwrap(obj_timezone),
format.data(), false)) {
return false;
}
return obj;
}
Variant HHVM_STATIC_METHOD(DateTime, createFromFormat,
const String& format,
const String& time,
const Variant& timezone /*= uninit_variant */) {
auto tz = TimeZone::Current();
if (!timezone.isNull()) {
const Object& obj_timezone = timezone.toObject();
if (!obj_timezone.instanceof(s_DateTimeZone)) {
raise_argument_warning("DateTime::createFromFormat", 3, s_DateTimeZone,
obj_timezone);
return false;
}
tz = DateTimeZoneData::unwrap(obj_timezone);
}
Object obj{DateTimeData::getClass()};
DateTimeData* data = Native::data<DateTimeData>(obj);
const auto curr = (format.find("!") != String::npos) ? 0 : f_time() ;
data->m_dt = req::make<DateTime>(curr, false);
if (!data->m_dt->fromString(time, tz, format.data(), false)) {
return false;
}
return obj;
}
bool TestExtDatetime::test_time() {
int nextWeek = f_time() + (7 * 24 * 60 * 60);
VS(f_date("Y-m-d", nextWeek),
f_date("Y-m-d", f_strtotime("+1 week")));
return Count(true);
}